#ifndef THREADS_THREAD_H
#define THREADS_THREAD_H

#include <debug.h>
#include <list.h>
#include <stdint.h>
#include "threads/synch.h"

/* States in a thread's life cycle. */
enum thread_status
{
	THREAD_RUNNING,     /* Running thread. */
	THREAD_READY,       /* Not running but ready to run. */
	THREAD_BLOCKED,     /* Waiting for an event to trigger. */
	THREAD_DYING        /* About to be destroyed. */
};

/* Thread identifier type.
	 You can redefine this to whatever type you like. */
typedef int tid_t;
#define TID_ERROR ((tid_t) -1)          /* Error value for tid_t. */

/* Thread priorities. */
#define PRI_MIN 0                       /* Lowest priority. */
#define PRI_DEFAULT 31                  /* Default priority. */
#define PRI_MAX 63                      /* Highest priority. */

/* A kernel thread or user process.

	 Each thread structure is stored in its own 4 kB page.  The
	 thread structure itself sits at the very bottom of the page
	 (at offset 0).  The rest of the page is reserved for the
	 thread's kernel stack, which grows downward from the top of
	 the page (at offset 4 kB).  Here's an illustration:

	 4 kB +---------------------------------+
	 |          kernel stack           |
	 |                |                |
	 |                |                |
	 |                V                |
	 |         grows downward          |
	 |                                 |
	 |                                 |
	 |                                 |
	 |                                 |
	 |                                 |
	 |                                 |
	 |                                 |
	 |                                 |
	 +---------------------------------+
	 |              magic              |
	 |                :                |
	 |                :                |
	 |               name              |
	 |              status             |
	 0 kB +---------------------------------+

	 The upshot of this is twofold:

	 1. First, `struct thread' must not be allowed to grow too
	 big.  If it does, then there will not be enough room for
	 the kernel stack.  Our base `struct thread' is only a
	 few bytes in size.  It probably should stay well under 1
	 kB.

	 2. Second, kernel stacks must not be allowed to grow too
	 large.  If a stack overflows, it will corrupt the thread
	 state.  Thus, kernel functions should not allocate large
	 structures or arrays as non-static local variables.  Use
	 dynamic allocation with malloc() or palloc_get_page()
	 instead.

	 The first symptom of either of these problems will probably be
	 an assertion failure in thread_current(), which checks that
	 the `magic' member of the running thread's `struct thread' is
	 set to THREAD_MAGIC.  Stack overflow will normally change this
	 value, triggering the assertion. */
/* The `elem' member has a dual purpose.  It can be an element in
	 the run queue (thread.c), or it can be an element in a
	 semaphore wait list (synch.c).  It can be used these two ways
	 only because they are mutually exclusive: only a thread in the
	 ready state is on the run queue, whereas only a thread in the
	 blocked state is on a semaphore wait list. */
struct thread
{
	/* Owned by thread.c. */
	tid_t tid;                          /* Thread identifier. */
	enum thread_status status;          /* Thread state. */
	char name[16];                      /* Name (for debugging purposes). */
	uint8_t *stack;                     /* Saved stack pointer. */
	int priority;                       /* Priority. */

	// for project 2
	bool syscall;												/* for implement page fault */
	struct list file_list;							/* for managing files in this thread */
	struct file *opened;
	struct list child_list;							/* for managing childs in this thread */

	struct list_elem child_elem;				/* for child_list */

	struct thread *parent;
	struct list terminated_list;

	/* Shared between thread.c and synch.c. */
	struct list_elem elem;              /* List element. */

#ifdef USERPROG
	/* Owned by userprog/process.c. */
	uint32_t *pagedir;                  /* Page directory. */
#endif

	// for project 3
#ifdef VM
	struct hash *pages;
	struct lock page_lock;
	void *esp;

	// for project 3-2
	struct hash *mmaps;
#endif		

	/* Owned by thread.c. */
	unsigned magic;                     /* Detects stack overflow. */
};

/* If false (default), use round-robin scheduler.
	 If true, use multi-level feedback queue scheduler.
	 Controlled by kernel command-line option "-o mlfqs". */
extern bool thread_mlfqs;

void thread_init (void);
void thread_start (void);

void thread_tick (void);
void thread_print_stats (void);

typedef void thread_func (void *aux);
tid_t thread_create (const char *name, int priority, thread_func *, void *);

void thread_block (void);
void thread_unblock (struct thread *);

struct thread *thread_current (void);
tid_t thread_tid (void);
const char *thread_name (void);

void thread_exit (void) NO_RETURN;
void thread_yield (void);

int thread_get_priority (void);
void thread_set_priority (int);

int thread_get_nice (void);
void thread_set_nice (int);
int thread_get_recent_cpu (void);
int thread_get_load_avg (void);

#endif /* threads/thread.h */
